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931.
An Ms7. 3 earthquake occurred on February 12, 2014 in Yutian County, Xinjiang Uygur Autonomous Region, which was followed by a series of aftershocks. This paper calculates the depth of the Ms7. 3 earthquake sequence by using the deterministic approach with the seismic phase data from the catalog database of the China Earthquake Networks Center, combined with original seismic wave records from the Digital Seismic Network Center of the Earthquake Administration of Xinjiang Uygur Autonomous Region. 相似文献
932.
2014 年于田MS 7. 3 地震产生的静态库仑应力变化及对周边断层的影响 总被引:1,自引:0,他引:1
计算了2008 年以来于田地区4 次MS5. 5 以上地震产生的同震静态库仑破裂应力场变化,分析它们之间的应力触发效应、4 次地震产生的应力变化与余震分布的关系及其对周边主要断层的影响。结果表明,2011 年MS5. 5、2014 年MS7. 3 地震均处于之前地震产生的库仑破裂应力增加区,增加值分别为0. 004、0. 021MPa,说明这两次地震明显受到之前强震触发作用的影响;而2012 年MS6. 2 地震位于之前地震产生的应力影区内,对其发生有延缓作用。此次MS7. 3 地震产生的库仑破裂应力场图像与目前余震空间分布特征较为吻合;但主震破裂面上部分应力增强区几乎没有余震发生,这些地区未来存在发生强余震的可能。距此次震中最近的贡嘎错断裂中段上不同断层段库仑应力扰动值变化很大,计算结果可能会受有限断层震源模型的一定影响,依然存在较强的地震危险性。此外,贡嘎错断裂东北段、普鲁断裂中西段及龙木错-邦达错断裂带西段受2008 年以来地震的累积库仑应力增加的影响也较为明显,其应力扰动最大值均超过0. 002MPa,同样存在一定地震危险性。 相似文献
933.
基于中国大陆中强震自动矩张量测定系统,采用虚拟中国地震台网记录的近震波形(震中距4° ~ 12°),反演了新疆于田MS7. 3 地震的矩心矩张量。结果显示,地震发震断层面参数分别为走向243° /倾角70° /滑动角- 18°,表现为1 次左旋走滑为主兼有少量正倾滑分量的事件。矩心在水平方向上位于震中(36. 123°N,82. 499°E)以东约13 km,矩心深度约10 km。总标量地震矩M0为3. 05 × 1019N·m,换算成矩震级MW6. 92,推断震源破裂时大部分能量释放的持续时间约14s。同时探讨了自动矩张量测定系统在未来地震灾情预判中的重要作用。 相似文献
934.
利用CAP方法反演了2012年6月30日新源-和静Ms6.6地震序列震源机制解.反演得到Ms6.6地震节面Ⅰ的参数为:走向299°,倾角68°,滑动角164°;节面Ⅱ的参数为:走向35°,倾角75°,滑动角23°;P轴方位角166°,倾角5°,T轴方位角258°,倾角26°;矩震级Mw为6.3;矩心深度为21km.此次地震序列破裂优势方向为NWW,倾角以60°~90°为主,滑动角以±180°±30°为主;P轴方位的优势取向为近NS向,T轴优势取向为近EW向.初步分析表明,主震节面Ⅰ为发震断层,是走向为NWW、近乎直立的左旋走滑断层.此次6.6级地震震源断错性质和主压应力方向以及序列P轴优势方位与震源区周围构造应力场特征基本一致. 相似文献
935.
临潼-长安断裂带(FN )西段走向研究 总被引:1,自引:0,他引:1
临潼-长安断裂是渭河盆地内西安凹陷与骊山凸起的分界断裂,该断裂东北段位置和走向清楚,但西南段(神禾塬以西)的推测走向并无实证资料。在临潼-长安断裂西南方向延伸区域内,通过对3条总长近27km的人工地震勘探剖面解译,发现均存在北倾断裂异常,在其中1处异常布置的地质钻探剖面显示,上更新统和中更新统地层存在错断现象。这些勘探异常点被认为是临潼-长安断裂带中的最北侧断裂FN,其连线基本在1条线上,以大约SW240°的方向,延续了临潼-长安断裂带中段走向,继续向西南方向延伸。 相似文献
936.
937.
Yilei Yu Xianfang Song Yinghua Zhang Fandong Zheng Ji Liang Licai Liu 《Stochastic Environmental Research and Risk Assessment (SERRA)》2014,28(5):1135-1145
Reclaimed water is efficiently used to recover the dry river, but river water and groundwater may be impacted considering the water quality. Thus, it is critical to study the factors controlling water chemistry. Samples of reclaimed water, river and groundwater were collected monthly from January to September in 2010, in Huai River (North China). And samples were analyzed for major 15 physio-chemical parameters. Using hierarchical cluster analysis, 9 months are divided into two distinct groups, which show the clear temporal variation. In reclaimed water and river water, one group includes February, while the other includes other months. In shallow and deep groundwater, one group includes months from January to April, while the other encompasses others. Monitoring stations are classified into three groups. Group A with high value of ions and nitrogen (order: NH4-N > NO3-N > NO2-N) includes reclaimed water and river water. Group B with moderate concentration and nitrogen (order: NO3-N > NH4-N > NO2-N) includes all shallow groundwater and one deep groundwater. Group C with the low value and nitrogen (order: NO3-N > NO2-N > NH4-N), includes two deep groundwater. Using multivariate analysis and ionic relationships, river water chemistry is found to be controlled by reclaimed water and evaporation process; chemistry in shallow groundwater and one deep groundwater, with type of Na–Ca(Mg)–HCO3–Cl, is controlled by dissolution of calcite, carbonate weathering. Additionally, reactions of nitrification, denitrification and cation exchange occur in the infiltration of reclaimed water; chemistry in the other deep groundwater, with type of Ca–Mg–HCO3–Cl, is controlled by dissolution of calcite, carbonate weathering and denitrification. 相似文献
938.
云南鲁甸6.5级地震灾害特点浅析 总被引:5,自引:4,他引:1
通过对2014年8月3日云南鲁甸6.5级地震震害开展实地调查,对灾区破坏情况进行总体介绍,并就各烈度区特征和建筑物震害、地震地质灾害、工程结构震害进行分析,初步得出本次地震的一些震害特点.一是灾区人口密度大,人员死亡较集中.人员死亡主要集中在Ⅷ和Ⅸ度区.二是地震振动强,灾区破坏严重.本次地震震源深度12km,极震区烈度高达Ⅸ度,震源破裂在11s内集中释放.三是抗震能力弱,房屋破坏严重.灾区属国家级贫困区,农村民居抗震能力弱,且多数民房坐落在河谷陡坡上,边坡效应加重房屋震害,重灾区砖木和土木房屋成片损毁、倒塌.四是灾区条件恶劣,救灾难度大.震区活动断裂密集发育、地质破碎疏松、地形崎岖不平,又恰值雨季,诱发极其严重次生地质灾害,导致人员伤亡,造成灾区大面积交通、通信、电力中断,救援物资与救援力量无法及时发挥作用. 相似文献
939.
940.
LIU SiBing HUANG SiJing SHEN ZhongMin Lü ZhengXiang SONG RongCai 《中国科学:地球科学(英文版)》2014,57(5):1077-1092
Carbonate cement is the most abundant cement type in the Fourth Member of the Xujiahe Formation in the Xiaoquan-Fenggu area of the West Sichuan Depression. Here we use a systematic analysis of carbonate cement petrology, mineralogy, carbon and oxygen isotope ratios and enclosure homogenization temperatures to study the precipitation mechanism, pore fluid evolution, and distribution of different types of carbonate cement in reservoir sand in the study area. Crystalline calcite has relatively heavy carbon and oxygen isotope ratios(δ13C = 2.14‰, δ18O = -5.77‰), and was precipitated early. It was precipitated directly from supersaturated alkaline fluid under normal temperature and pressure conditions. At the time of precipitation, the fluid oxygen isotope ratio was very light, mainly showing the characteristics of a mixed meteoric water-seawater fluid(δ18O = -3‰), which shows that the fluid during precipitation was influenced by both meteoric water and seawater. The calcite cement that fills in the secondary pores has relatively lighter carbon and oxygen isotope ratios(δ13C = -2.36‰, δ18O = -15.68‰). This cement was precipitated late, mainly during the Middle and Late Jurassic. An important material source for this carbonate cement was the feldspar corrosion process that involved organic matter. The Ca2+, Fe3+ and Mg2+ ions released by the clay mineral transformation process were also important source materials. Because of water-rock interactions during the burial process, the oxygen isotope ratio of the fluid significantly increased during precipitation, by about 3‰. The dolomite cements in calcarenaceous sandstone that was precipitated during the Middle Jurassic have heavier carbon and oxygen isotope ratios, which are similar to those of carbonate debris in the sandstone(δ13C = 1.93‰, δ18O = -6.11‰), demonstrating that the two are from the same source that had a heavier oxygen isotope ratio(δ18O of about 2.2‰). The differences in fluid oxygen isotope ratios during cement precipitation reflect the influences of different water-rock interaction systems or different water-rock interaction strengths. This is the main reason why the sandstone containing many rigid particles(lithic quartz sandstone) has a relatively negative carbon isotope ratio and why the precipitation fluid in calcarenaceous sandstone has a relatively heavier oxygen isotope ratio. 相似文献